COMET Project Videos

COMET Project – Final GA, Italy

The 9th and final GA meeting for the COMET project was held in Bologna, Italy in June 2013. Having been granted an extension due to the project’s success, partners have been able to carry out additional robot machining tests to further improve accuracy, share and gain knowledge, and enhance developments. See the final results, interviews and reflections from project partners, project officers and the Advisory Board, including how the project has "exceeded wildest expectations".

COMET project hosts successful
Technical Seminars across Europe

The COMET consortium hosted three successful Technical Seminars across Europe to disseminate the project results to the wider audience. Presentations of the results and explanations of the technologies and solutions developed were shared, along with live demonstrations of the robot cells.

Simulation of machining with Robots an automotive brake caliper part using PowerMill Robot interface, part of the COMET platform. The simulation is prepared by SIR SpA. based on their ABB robot machining cell.

Project Coordinator Jan Willem Gunnink, Delcam, speaks about COMET as a success story

Jan Willem from Delcam was asked to present the COMET project during the PPP (Public Private Partnerships in research) days from 9th-10th July. The COMET project was selected as a success story to be presented during the introduction to the PPP days where new topics for project proposals for 2013 were then shown.

COMET Project Update - The Future of Robot Machining

Find out about the progress of the COMET project, which aims to overcome the challenges facing European manufacturing industries by developing innovative robot machining systems that are flexible, reliable and predictable with an average of 30% cost efficiency savings in comparison to machine tools.

Advanced Robot Machining with the COMET Project

Find out about the COMET project, an EU funded research project co-ordinated by Delcam plc investigating the COmponents and METhods for adaptive control of industrial robots enabling high-end machining for cost effective, flexible and reliable manufacturing solutions.